Magnetic Flux Switching Type Permanent Magnet Generator for Bicycles: Modelling and an Experimental Study

1. Patent 1893: Generator for bicycle, GB 9662. Search in Google Scholar

2. Chefford Master MFG Co Inc. (1948). Patent US 2453523A 1948: Bicycle Generator Regulated by Rotor Torque Variations. USA. Search in Google Scholar

3. Wilfried, S. (1994). Hub Generator, Especially for Bicycles. Patent EP0591724A1. Search in Google Scholar

4. Bridgestone Cycle Co. (1995). Hub Generator for Bicycle. Patent JPH0710057A. Search in Google Scholar

5. Shimano KK. (2003). Claw-Pole Generator and Hub Dynamo for Bicycle. Patent JP2003333777A. Search in Google Scholar

6. Spooner, E., Tavner, P., Mueller, M.A., Brooking, P.R.M., & Baker, N.J. (2004). Vernier Hybrid Machines for Compact Drive Applications. In: Second International Conference on Power Electronics, Machines and Drives (PEMD 2004), (pp. 452–457), 31 March–2 April 2004, Edinburgh, UK.10.1049/cp:20040330 Search in Google Scholar

7. Raihan, M.A.H., Baker, N.J., Smith, K.J, & Almoraya A.A. (2018). Development of Low Translator Mass Linear Vernier Machine for Wave Energy Power Take Off. In: The 7th International Conference on Renewable Power Generation, (pp. 1–5), 26–27 September 2018, DTU, Lyngby, Copenhagen, Denmark. Search in Google Scholar

8. Rauch, S.R., & Johnson, L.J. (1955). Design Principles of Flux Switch Alternators. IEE Trans Power Apparatus and Systems, Part III, 74 (3), 1261–1268..10.1109/AIEEPAS.1955.4499226 Search in Google Scholar

9. Kwon, J.W., Lee, J.H., Zhao, W., & Kwon, B.I. (2018). Flux-Switching Permanent Magnet Machine with Phase-Group Concentrated-Coil Windings and Cogging Torque Reduction Technique. Energies, 11 (2758), 1–11.10.3390/en11102758 Search in Google Scholar

10. Diab, H., Amara, Y., & Barakat, G. (2020). Open Circuit Performance of Axial Air Gap Flux Switching Permanent Magnet Synchronous Machine for Wind Energy Conversion: Modeling and Experimental Study. Energies, MDPI. Open Access Journal, 13 (4), 1–19.10.3390/en13040912 Search in Google Scholar

11. Zhu, Z.Q., & Chen, J.T. (2010). Advanced Flux-Switching Permanent Magnet Brushless Machines. IEEETrans. Magn., 46, 1447–1453.10.1109/TMAG.2010.2044481 Search in Google Scholar

12. Andrada, P., & Martínez, F. (2016). Flux Switching Alternators for Small Wind Generation. Renew. Energy Power Qual. J., 1, 67–68.10.24084/repqj14.426 Search in Google Scholar

13. Bezrukovs, V., & Levins, N. (2008). Generator for Bicycle. Patent LV13750. Search in Google Scholar

14. Bezrukovs, V., & Levins, N. (2009). Bicycle Generator. Patent WO2009084938. Search in Google Scholar

15. Bezrukovs, D., Bezrukovs, V., Bezrukovs, Vl., & Levins, N. (2011). Contactless Generator for Bicycle. Patent LV 14377. Search in Google Scholar

16. Bezrukovs, D., Bezrukovs, V., Bezrukovs, Vl., & Levins, N. (2012). Axial Inductor Generator for Bicycle. Patent LV 14550. Search in Google Scholar

17. Bezrukovs, D., Bezrukovs, V., Bezrukovs, Vl., & Levins, N. (2013). Inductor Generator for Bicycle. Patent LV 14695. Search in Google Scholar

18. Dombur, L. (1984). Axial Inductor Machines. Riga: Zinatne, 247. Search in Google Scholar

19. Bezrukovs V., Bezrukovs Vl., Bezrukovs D., Konuhova M., Berzins A. (2020): Magnetic flux switching type permanent magnet generator. LV15501, 20.12.2020. Search in Google Scholar

20. Bezrukovs V., Bezrukovs Vl., Bezrukovs D., Konuhova M., Berzins A. (2022): Magnetic flux switching type permanent magnet generator. EP3955439A1·2022-02-16. Search in Google Scholar